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Photocatalytic Oxidation of Organic Pollutants Catalyzed by an Iron Complex at Biocompatible pH Values: Using O-2 as Main Oxidant in a Fenton-like Reaction
Chen, Xi; Ma, Wanhong; Li, Jing; Wang, Zhaohui; Chen, Chuncheng; Ji, Hongwei; Zhao, Jincai
2011-03-17
Source PublicationJOURNAL OF PHYSICAL CHEMISTRY C
ISSN1932-7447
Volume115Issue:10Pages:4089-4095
AbstractA red iron(II) 4,4'-diairboxy-2,2'-bipyridine complex ([Feil(dcbpy)3]) was investigated as an extraordinary Fenton catalyst capable of activating much more molecular O-2 to mineralize organic pollutants in water at biocompatible pH values under visible irradiation. Eight representative organic pollutants were effectively degraded in the presence of this catalyst with high turnover number (368-2000). The flexible bifunctional coordination mode (N donor for ferrous ion and O donor for ferric form) devoted by the ligand dcbpy should be responsible for the preservation of iron(II/III) catalysis in such a neutral pH condition, whereas any substitution of the 4,4'-carboxylic groups in dcbpy by other groups such as ether, alcohol, nitroyl, or methyl groups resulted in nearly total loss of catalytic stability. More important, the present [Fe-II(dcbpy)(3)] catalyst can dramatically change the traditional role of H2O2 as main oxidant in the general Fenton reaction and make molecular O-2 become the main oxidant in the mineralization of organic pollutants instead. Through the simultaneously quantitative measure of the actual consumption of molecular O-2 and H2O2 as well as the corresponding mineralization yields of substrates (2,4-DCP and Org II), respectively, we found that the usage of O-2 not only is almost twice the H2O2 depletion for the mineralization of substrates but also rigorously accords with the mineralization yield of substrates in terms of stoichiometric relation. No matter whether H2O2 is in excess or not, O-2 participates in the mineralization of substrates and acts as the main oxidant. For the same amount of H2O2 consumption, the O-2 consumption was only 2.5% and 8.13% relative to the H2O2 usage in the controlled general Fenton reaction and UV-Fenton reaction (pH = 3.0), respectively. This clearly indicates that the present catalyst is able to use much more O-2 to eliminate organic pollutants in water under visible irradiation. Visible irradiation is crucial for the oxidative degradation and mineralization process. The extraordinary ability of bifunctional coordination sites offered by this ligand provides a promising design paradigm for Fenton-like catalyst to eliminate organic pollutants by using more solar energy and O-2 in air.
DOI10.1021/jp110277k
Indexed BySCI
Language英语
WOS IDWOS:000288113400033
PublisherAMER CHEMICAL SOC
Citation statistics
Cited Times:31[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
Identifierhttp://ir.iccas.ac.cn/handle/121111/72528
Collection中国科学院化学研究所
Corresponding AuthorZhao, Jincai
AffiliationChinese Acad Sci, Inst Chem, Key Lab Photochem, Beijing Natl Lab Mol Sci, Beijing 100190, Peoples R China
Recommended Citation
GB/T 7714
Chen, Xi,Ma, Wanhong,Li, Jing,et al. Photocatalytic Oxidation of Organic Pollutants Catalyzed by an Iron Complex at Biocompatible pH Values: Using O-2 as Main Oxidant in a Fenton-like Reaction[J]. JOURNAL OF PHYSICAL CHEMISTRY C,2011,115(10):4089-4095.
APA Chen, Xi.,Ma, Wanhong.,Li, Jing.,Wang, Zhaohui.,Chen, Chuncheng.,...&Zhao, Jincai.(2011).Photocatalytic Oxidation of Organic Pollutants Catalyzed by an Iron Complex at Biocompatible pH Values: Using O-2 as Main Oxidant in a Fenton-like Reaction.JOURNAL OF PHYSICAL CHEMISTRY C,115(10),4089-4095.
MLA Chen, Xi,et al."Photocatalytic Oxidation of Organic Pollutants Catalyzed by an Iron Complex at Biocompatible pH Values: Using O-2 as Main Oxidant in a Fenton-like Reaction".JOURNAL OF PHYSICAL CHEMISTRY C 115.10(2011):4089-4095.
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